KR101626017B1 - algae cultivation device - Google Patents

Abstract

The present invention relates to an algal culture apparatus, and more particularly to an algal culture apparatus for culturing algae such as chlorella. The present invention relates to a transparent container capable of transmitting light so that algae can be photosynthated and cultured; And a container stopper coupled to a container inlet of the transparent container, wherein the container stopper includes: an air inflow control unit for controlling an amount of air flowing into the transparent container; And an air flow rate adjusting unit installed in the container stopper to adjust an amount of air flowing out of the transparent container.

Description

[0001] ALGAE CULTURING DEVICE [0002]

The present invention relates to an algal culture apparatus, and more particularly, to an algal culture apparatus for culturing microalgae such as chlorella.

Microalgae are all organisms that produce oxygenogenic photosynthesis in the water, except for the moss plants, ferns and seed plants inhabiting on land, and they are collectively referred to as the single-celled organisms such as diatoms, Birds and birds, as well as multi-cellular organisms such as green algae, brown algae, and red algae.

This is called a phytoplankton or microalgae.

Chlorella is a single cell belonging to the green algae in microalgae, a photosynthetic pigment that has chlorophyll a and b and is an organism that produces oxygen-producing photosynthesis.

Microalgae belonging to the genus Chlorella are used for production of hydrogen, biodiesel and bio alcohol which are bio energy, fixation of carbon dioxide, purification of water quality, production of aquatic products and livestock products, production of health supplements, and production of cosmetics.

In addition, microalgae belonging to the genus Chlorella are known to promote plant growth and chlorophyll formation, to increase cytokinin in plants, to inhibit ethylene, and to increase the density of useful microorganisms in the soil .

According to domestic research results, the culture of chlorella increases the germination rate of plant seeds, increases leaf growth of lettuce, promotes root development, and improves storage stability of strawberries and leafy vegetables.

Chlorella requires (1) light, (2) water, (3) carbon dioxide, and (4) nutrients for photosynthesis, and artificial cultivation is used to account for these factors.

Methods for artificial cultivation of chlorella can be classified into a closed culture system and an open culture system, and a closed culture apparatus is generally called a photobioreactor or a bioreactor.

The advantage of a closed culture system is that it can easily control culture conditions such as temperature, pH, light, nutrients, carbon dioxide, flow rate, and culture density. However, there is a disadvantage that the energy consumption is high, the cost is high, and the design, operation and operation are complicated.

An open culture system has the advantage that it can store water such as a pond, a reservoir, a waterway, has a low energy consumption and can be cultured on a large scale. However, it has a disadvantage that it is difficult to control culture conditions and the possibility of inclusion of burnt microorganisms is high.

In a closed incubator using sunlight, the amount of carbon dioxide supplied to the growth of chlorella and the transmittance of light into the culture medium are limiting factors for the culture. To overcome this problem, additional carbon dioxide is supplied during air injection, or the culture liquid is mixed with a motor and a stirring blade Followed by stirring.

However, in the conventional closed type incubator, the amount of carbon introduced into the culture liquid was controlled by adjusting the amount of the introduced air or raising the ratio of carbon dioxide. Further, in order to use a soft transparent container having high light transmittance, a separate device for supporting the container was required.

In order to increase photosynthetic efficiency, the culture solution was agitated using a motor and a stirring blade. To this end, a separate apparatus is required and a large amount of energy is required.

An object of the present invention is to provide an alga culturing apparatus which can reduce the complexity of the apparatus and improve the convenience of operation in order to solve the above problems.

SUMMARY OF THE INVENTION The present invention has been made in order to achieve the above object of the present invention, and it is an object of the present invention to provide a transparent container capable of transmitting light so that photosynthesis and cultivation of algae can be performed; And a container stopper coupled to a container inlet of the transparent container, wherein the container stopper includes: an air inflow control unit for controlling an amount of air flowing into the transparent container; And an air flow rate adjusting unit installed in the container stopper to adjust an amount of air flowing out of the transparent container.

And an air supply device connected to the air flow rate regulator to inject air into the transparent container.

Wherein the air inflow amount regulating unit comprises: an inflow path unit installed through the container stopper so that the outside and the inside of the transparent container communicate with each other; And a control member for controlling an amount of air flowing through the inflow path portion to control an inflow amount of the air.

The control member may be a rotating member that controls an amount of air flowing through the inflow path portion by rotation.

The inflow path portion may be connected to an inner inflow pipe which is submerged in the culture liquid so that air is introduced into the culture liquid contained in the transparent container.

The internal inflow pipe may be connected to the air supply device for injecting air into the transparent container through the inflow path portion and connected to the air inflow amount control portion.

The air flow rate regulating unit includes an outflow path unit installed to penetrate the container stopper so that the outside and the inside of the transparent container communicate with each other; And a control member for controlling the amount of air flow through the outflow path portion to adjust the amount of air flow.

The control member may be a rotating member that controls an amount of air flowing through the outflow path portion by rotation.

The material of the transparent container may be selected from the group consisting of low density polyethylene (LDPE), polyethylene nerephthalate (PET), polyethylene (PE), polyvinyl chloride (PVC), polypropylene (PP), and polycarbonate .

The transparent container may have a rectangular parallelepiped shape when the culture liquid is filled.

The algae culture apparatus according to the present invention has an advantage that a bird such as chlorella can be simply and conveniently cultured through a container in which algae can be cultured and a cap that is coupled to the container and can control the inflow and outflow of air .

1 is a photograph showing an alga culturing apparatus according to the present invention.
Fig. 2 is a photograph showing an example of a container of the algal culture apparatus of Fig. 1;
Fig. 3 is a photograph showing the container of Fig. 2 in a folded state. Fig.
Fig. 4 is a view showing an example of the container of Fig. 2;
Fig. 5 is a photograph showing examples of the container stopper of Fig. 1;
6 is a photograph showing the bottom side of the container stopper of Fig.
7A and 7B are conceptual diagrams showing the coupling relationship between the container stopper and the container of Figs. 5 and 6. Fig.

Hereinafter, an algal culture container according to the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 1 to 7B, the bird's diverting container according to the present invention comprises: a transparent container capable of transmitting light so that algae can be photosynthated and cultured; And a container stopper coupled to a container inlet of the transparent container, wherein the container stopper includes: an air inflow control unit for controlling an amount of air flowing into the transparent container; And an air flow rate adjusting unit installed in the container stopper to adjust an amount of air flowing out of the transparent container.

The transparent container can be variously configured as a container capable of transmitting light so that algae can be photosynthated and cultured.

Particularly, the transparent container is made of glass or the like in consideration of light transmittance, but it is preferable to have a plastic material for convenience of handling and storage.

For example, the material of the transparent container may be selected from the group consisting of low density polyethylene (LDPE), polyethylene nerephthalate (PET), polyethylene (PE), polyvinyl chloride (PVC), polypropylene (PP), and polycarbonate ≪ / RTI >

On the other hand, the transparent container may have a shape such as a rectangular parallelepiped, a cube, or a polyhedron in a state where the culture liquid is filled. In this case, as shown in FIG. 3, the transparent container may be configured such that a portion including a bottom surface and a remaining portion are divided from a side of a rectangular parallelepiped at a diagonal line to a boundary and folded based on a diagonal line.

Specifically, the transparent container has a rectangular parallelepiped shape and is formed with a foldable portion on a diagonal portion, so that the transparent container is folded around a foldable portion in a pre-use state or a post-use state to facilitate maintenance and storage.

When the transparent container is constructed as described above, the space occupied by the transparent container before and after use can be minimized, thereby maximizing handling convenience.

In addition, when the transparent container is made of soft material, it can be installed regardless of the shape of the bottom, and is advantageous in that it is inexpensive and can be recycled.

On the other hand, the capacity of the transparent container is standardized such as 10 L, 20 L, and preferably 10 L.

Here, the culture liquid to be contained in the transparent container is preferably 5 to 6 L when the volume of the transparent container is 10 L and 10 to 12 L when the volume of the transparent container is 20 L, that is, 50 to 60% of the volume of the transparent container.

According to the experiment, when the volume of the transparent container is 10 L and the culture liquid is 5 ~ 6 L, the light utilization efficiency is higher than that of the case where the volume of the transparent container is 20 L and the culture liquid is 10 ~ 12 L.

In addition, when cultivated chlorella is used for growing crops, an average of 10 liters of culture medium is required when spraying 1 ha area according to 0.2% (500 times) of spraying solution concentration.

In addition, when using more than 50% culture medium for continuous culture and maintenance of culture medium, nutrient replenishment is effective as much as the usage amount. Therefore, it is preferable to replenish 2.5 liters after using each 2.5 liters in a 4-liter culture vessel.

In addition, since 5 liters are batch-cultured, it can be stably coped with contamination and loss. (Two 5 liter cultures are reserved).

On the other hand, the culture liquid to be filled in the transparent container can be any composition as long as it can maintain an environment capable of growing algae such as chlorella, and can be composed of, for example, water and nutrients.

The container stopper is a stopper coupled to the container inlet of the transparent container, and can be coupled to the container inlet of the transparent container by various methods such as screwing, fitting, and the like.

At this time, it is preferable that the container inlet of the transparent container has sufficient hardness so as to be firmly coupled with the container stopper.

In the meantime, the alga culturing apparatus according to the present invention includes an air inflow amount adjusting unit and an air flow amount adjusting unit so that air can be introduced into and discharged from the transparent container.

The air inflow amount control unit may be configured to control the amount of air flowing into the transparent container.

For example, the air inflow amount control unit may include: an inflow path unit installed through the container stopper so that the outside and the inside of the transparent container communicate with each other; And a control member for controlling an amount of air flowing through the inflow path portion to control an inflow amount of the air.

The inflow path portion includes a through-hole formed in the container stopper and a pipe installed through the container stopper (see FIGS. 5 and 6, a straight pipe, Shaped pipe), and the like.

The internal inflow pipe may be connected to the air supply device for injecting air into the transparent container through the inflow path portion and connected to the air inflow amount control portion.

Meanwhile, the inflow path portion may be connected to an inner inflow pipe which is submerged in the culture liquid so that air is introduced into the culture liquid contained in the transparent container.

Particularly, it is preferable that the internal inflow pipe is made of a material which is free from bending so as to be easily inserted into the inside of the transparent container.

At this time, the inflow path portion may have a sufficiently large inner diameter so that the inner inflow pipe can be inserted.

The control member may be a rotating member that controls an amount of air flowing through the inflow path portion by rotation.

The air flow rate regulator may be configured to adjust the amount of air flowing out of the transparent container and installed in the container stopper.

For example, the air flow rate regulating unit may include an outflow path unit installed to penetrate the container stopper so that the outside and the inside of the transparent container communicate with each other; And a control member for controlling the amount of air flow through the outflow path portion to adjust the amount of air flow.

The outflow path portion may have a configuration similar to that of the inflow path portion described above with the configuration that the outflow path portion is installed through the container stopper so that the inside and the inside of the transparent container communicate with each other.

The control member may be a rotating member that controls an amount of air flowing through the outflow path portion by rotation.

And an air supply device connected to the air flow rate regulator to inject air into the transparent container.

The air supply device may be an air pump or the like in connection with the air inflow amount control unit and configured to inject air into the transparent container.

Meanwhile, in the embodiment of the present invention, the gas introduced into the transparent container is described as air, but in order to form an optimal culture environment in the transparent container, a mixed gas containing a gas having a controlled high concentration of carbon dioxide, It is also possible to inject fluids of various compositions.

The apparatus for controlling an algae culture according to the present invention having the above-described structure is characterized in that in the culturing of algae, particularly chlorella for agriculture, a constitution for regulating the inflow amount of air and the air flow rate specially produced is called a container cap, So that various modifications are possible.

Further, it is also possible to increase the solubility of the carbon dioxide in the culture apparatus, that is, to increase the air pressure inside the transparent container, to increase the solubility of the carbon dioxide in the chlorella culture liquid, and to increase the structural stability of the soft transparent container while supplying a sufficient amount of air into the culture liquid The culture broth can be agitated during the process of culturing, thereby improving the efficiency of chlorella culture and the ease of handling the apparatus.

On the other hand, when a soft transparent container is used for chlorella culture, it is preferable to provide a separate device capable of supporting the culture container to achieve the structural stability of the culture device.

On the other hand, for the cultivation of chlorella, the amount of air to be introduced into the culture liquid must be increased to increase the amount of carbon dioxide dissolved into the culture liquid. For this purpose, the container stopper according to the present invention having a device for controlling the inflow amount of air and the outflow amount of air into the transparent container is used to increase the air pressure in the incubator to increase the solubility of air in the culture solution to increase the supply amount of carbon dioxide, And agitation is performed so as to enhance the efficiency of culturing the chlorella and ensure the structural stability of the incubator.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: container plug 2: container inlet
3: Air outlet part 4: Outlet air amount control part
5:

Claims (10)

A transparent container capable of transmitting light so that algae can be photosynthated and cultured;
And a container cap coupled to the container inlet of the transparent container,
Wherein the container cap comprises:
An air inflow amount adjusting unit for adjusting an amount of air flowing into the transparent container;
And an air flow rate adjusting unit installed in the container stopper to adjust an amount of air flowing out of the transparent container,
And an air supply device connected to the air flow rate regulator to inject air into the transparent container,
The air inflow-
An inflow path portion passing through the container stopper so that the inside of the transparent container communicates with the outside;
And a control member for controlling an amount of air flow through the inflow path portion to control an air inflow amount,
The inflow-
And an inner inflow pipe which is submerged in the culture medium to allow air to flow into the culture medium contained in the transparent container,
Wherein the control member is a rotating member for controlling an amount of air flow through the inflow path portion by rotation,
Wherein the internal inflow pipe is connected to the air supply device for injecting air into the transparent container through the inflow path portion and connected to the air inflow amount control unit,
The air flow rate regulator may comprise:
And an outflow path portion which is installed through the container stopper so that the inside of the transparent container communicates with the outside and the flow rate of the air is controlled to control the amount of air outflow,
The transparent container has a rectangular parallelepiped shape in a state in which the culture liquid is filled,
Wherein the transparent container is formed such that a first portion including a bottom surface with a diagonal line as a boundary at a side of a rectangular parallelepiped portion and a remaining second portion are defined and folded with respect to a diagonal line so that the second portion is recessed,
The second portion being softer than the first portion,
Wherein the container inlet is formed in the second portion,
The material of the transparent container is selected from the group consisting of low density polyethylene (LDPE), polyethylene nerephthalate (PET), polyethylene (PE), polyvinyl chloride (PVC), polypropylene (PP), and polycarbonate Wherein the algae culture device comprises: delete delete delete delete delete delete delete delete delete

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